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263 resources-
Anathallis manausensis (Orchidaceae, Pleurothallidinae), a new species from the Brazilian Amazon. (2016). Phytotaxa, 245(3), 229–233.
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Dung beetle communities: a Neotropical-Nearctic comparison. (n.d.).
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Ackerly, D. D., Rankin-de Merona, J. M., & Rodrigues, W. A. (1990). Tree densities and sex ratios in breeding populations of dioecious central Amazonian Myristicaceae. Journal of Tropical Ecology, 6(2), 239–248.
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Albieri-Júnior, A., Venegas-González, A., Botosso, P. C., Roig, F. A., Camargo, J. L. C., & Tomazella-Filho, M. (2019). What is the temporal extension of edge effects on tree growth dynamics? A dendrochronogical approach model using Scleronema micranthum (Ducke) Ducke trees of a fragmented forest in the Central Amazon. Ecological Indicators, 101, 133–142.
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Andresen, E. (2002). Dung beetles in a Central Amazonian rainforest and their ecological role as secondary seed dispersers. Ecological Entomology, 27(3), 257–270.
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Andresen, E. (2003). Effect of forest fragmentation on dung beetle communities and functional consequences for plant regeneration. Ecography, 26(1), 87–97.
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Andresen, E. (2001). Effects of dung presence, dung amount, and secondary dispersal by dung beetles on the fate of Micropholis guyanensis (Sapotaceae) seeds in Central Amazonia. Journal of Tropical Ecology, 17(1), 61–78.
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Andresen, E., & Levey, D. J. (2004). Effects of dung and seed size on secundary dispersal, seed predation and seedling establishment of rainforest Trees. Oecologia, 139, 45–54.
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Arruda, Y. M. B. C., & Ferraz, I. D. K. (2008). Inharé-da-folha-peluda, Helicostylis tomentosa. In Manual de Sementes da Amazônia (p. 6). INPA.
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Aud, F. F., & Ferraz, I. D. K. (2012). Seed size influence on germination responses to light and temperature of seven pioneer tree species from the Central Amazon. Anais Da Academia Brasileira de Ciências, 84(3), 759–766.
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Baccaro, F. B., Ketelhut, S. M., & de Morais, J. W. (2010). Resource distribution and soil moisture content can regulate bait control in an ant assemblage in Central Amazonian forest. Austral Ecology, 35(3), 274–281.
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Baccaro, F. B., Ketelhut, S. M., & Morais, J. W. (2011). Efeitos da distância entre iscas nas estimativas de abundância e riqueza de formigas em uma floresta de terra-firme na Amazônia Central. Acta Amazonica, 41(1), 115–122.
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Becker, P. (1991). More about Euglossine bees in Amazonian forest fragments. Biotropica, 23(4b), 586–591.
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Benitez-Malvido, J. (1998). Impact of forest fragmentation on seedling abundance in a tropical rain forest. Conservation Biology, 12(2), 380–389.
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Benitez-Malvido, J., Amparo, L., & Ferraz, I. (2018). Effect of distance to edge and edge interaction on seedling regeneration and biotic damage in tropical rain forest fragments: A long-term experiment. Journal of Ecology, 106(6), 2204–2217.
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Benitez-Malvido, J., & Ferraz, I. D. K. (1999). Litter cover variability affects seedling performance and herbivory. Biotropica, 31(4), 598–606.
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Benitez-Malvido, J., Garcia-Guzman, G., & Ferraz, I. D. K. (1999). Leaf-fungal incidence and herbivory on tree seedlings in tropical rainforest fragments: an experimental study. Biological Conservation, 91, 143–150.
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Benitez-Malvido, J., & Martinez-Ramos, M. (2013). Long-term performance and herbivory of tree seedlings planted into primary and secondary forests of central Amazonia. Journal of Tropical Ecology, 29(4), 301–311.
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Benson, W. W. (1988). Local diversity of tropical and temperate ant faunas (Hymenoptera, Formicidae). Acta Amazonica, 18(3/4), 275–289.
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Bentos, T. V., Mesquita, R. C. G., & Williamson, G. B. (2008). Reproductive phenology of Central Amazon pioneer trees. Tropical Conservation Science, 1(3), 186–203.
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